Advanced Water Management Centre, The University of Queensland, St Lucia, QLD 4072, Australia; Separation and Conversion Technologies, VITO-Flemish Institute for Technological Research, Boeretang 200, 2400, Mol, Belgium.
Advanced Water Management Centre, The University of Queensland, St Lucia, QLD 4072, Australia; Département Génie Energétique et Environnement, INSA Lyon, 69621 Villeurbanne Cedex, France.
Water Res. 2017 Dec 1;126:411-420. doi: 10.1016/j.watres.2017.09.058. Epub 2017 Sep 30.
The mining sector is currently under unprecedented pressure due to stringent environmental regulations. As a consequence, a permanent acid mine drainage (AMD) treatment is increasingly being regarded as a desirable target with direct benefits for the environment and the operational and economic viability of the resources sector. In this study we demonstrate that a novel bioelectrochemical system (BES) can deliver permanent treatment of acid mine drainage without chemical dosing. The technology consists of a two-cell bioelectrochemical setup to enable the removal of sulfate from the ongoing reduction-oxidation sulfur cycle to less than 550 mg L (85 ± 2% removal from a real AMD of an abandoned silver mine), thereby also reducing salinity at an electrical energy requirement of 10 ± 0.3 kWh kg of SO-S removed. In addition, the BES operation drove the removal and recovery of the main cations Al, Fe, Mg, Zn at rates of 151 ± 0 g Al m d, 179 ± 1 g Fe m d, 172 ± 1 g Mg m d and 46 ± 0 g Zn m d into a concentrate stream containing 263 ± 2 mg Al, 279 ± 2 mg Fe, 152 ± 0 mg Mg and 90 ± 0 mg Zn per gram of solid precipitated after BES fed-rate control treatment. The solid metal-sludge was twice less voluminous and 9 times more readily settleable than metal-sludge precipitated using NaOH. The continuous BES treatment also demonstrated the concomitant precipitation of rare earth elements together with yttrium (REY), with up to 498 ± 70 μg Y, 166 ± 27 μg Nd, 155 ± 14 μg Gd per gram of solid, among other high-value metals. The high-REY precipitates could be used to offset the treatment costs.
由于严格的环境法规,采矿业目前正面临前所未有的压力。因此,永久性酸性矿山排水(AMD)处理越来越被视为一个理想的目标,因为这对环境以及资源部门的运营和经济可行性都有直接的好处。在本研究中,我们证明了一种新型的生物电化学系统(BES)可以在无需化学加药的情况下实现永久性 AMD 处理。该技术由两个电池的生物电化学装置组成,可将正在进行的硫氧化还原循环中的硫酸盐去除到低于 550mg/L(从废弃银矿的实际 AMD 中去除 85±2%),从而也降低了盐度,所需电能为 10±0.3kWh/kg 的 SO42-去除量。此外,BES 运行还以 151±0g Al m-3 d、179±1g Fe m-3 d、172±1g Mg m-3 d 和 46±0g Zn m-3 d 的速率去除和回收了主要阳离子 Al、Fe、Mg、Zn,并将其回收至浓缩液流中,浓缩液流中含有 263±2mg Al、279±2mg Fe、152±0mg Mg 和 90±0mg Zn,每克沉淀后的固体中沉淀的固体量为 46±0g Zn m-3 d。与使用 NaOH 沉淀的金属污泥相比,经 BES 进料速率控制处理后的金属污泥体积减少了一半,沉降性提高了 9 倍。连续的 BES 处理还证明了稀土元素(REY)与钇(Y)的共沉淀,每克固体中沉淀的 Y 可达 498±70μg、Nd 为 166±27μg、Gd 为 155±14μg,以及其他高价值金属。高 REY 沉淀物可用于抵消处理成本。
